A disconnectable spread mooring and riser tower system for a vessel floating at a water surface. The system comprises a forward chain table assembly releasably connected to the vessel at the bow via a first connector assembly, and an aft chain table assembly releasably connected at the stem via a second connector assembly. mooring legs are attached to the chain table assemblies and are capable of being anchored at spaced locations on a seafloor. The first and second connector assemblies are arranged and designed to unlock and release the forward and aft chain table assemblies from the vessel. A riser tower system fixed to the seafloor may be located near the moored vessel and flexible jumper hoses can be extended between the riser tower system and the vessel to transfer fluids, air, power and control signals.
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17. A method for disconnecting a floating vessel having a bow and a stern from a spread mooring system at a moored location, the spread mooring system including a plurality of bow mooring legs anchored at spaced locations on a seafloor and connected to a forward chain table assembly connected to the vessel at the bow, and a plurality of stern mooring legs anchored at spaced locations on the seafloor and connected to an aft chain table assembly connected to the vessel at the stern, the method comprising the steps of:
unlocking a first connector assembly securing the forward chain table assembly to the vessel;
releasing the forward chain table assembly from the first connector assembly and lowering the forward chain table assembly with a first pull-in assembly into the water;
unlocking a second connector assembly securing the aft chain table assembly to the vessel;
releasing the aft chain table assembly from the second connector assembly and lowering the aft chain table assembly with a second pull-in assembly into the water;
securing the positioning of the forward and aft chain table assemblies in the water; and
moving the vessel to another location with the forward and aft chain table assemblies and pluralities of bow and stern mooring legs remaining at the moored location.
1. A disconnectable spread mooring assembly for a vessel floating at a water surface, the vessel having a bow and a stern, the disconnectable spread mooring assembly comprising:
a forward chain table assembly releasably connected to the vessel at the bow;
an aft chain table assembly releasably connected to the vessel at the stern;
a plurality of bow mooring legs having first ends attached to the forward chain table assembly and having second ends capable of being anchored at spaced locations on a seafloor;
a plurality of stern mooring legs having first ends attached to the aft chain table assembly and having second ends capable of being anchored at spaced locations on the seafloor;
a first connector assembly connecting the forward chain table assembly to the vessel at the bow;
a second connector assembly connecting the aft chain table assembly to the vessel at the stern, wherein the first and second connector assemblies are arranged and designed to unlock and release the forward and aft chain table assemblies from the vessel;
a first pull-in assembly on the vessel at the bow; and
a second pull-in assembly on the vessel at the stern,
wherein the first pull-in assembly is arranged and designed to lower the forward chain table assembly and the first ends of the plurality of bow mooring legs from the vessel upon unlocking the first connector assembly, and
the second pull-in assembly is arranged and designed to lower the aft chain table assembly and the first ends of the plurality of stern mooring legs from the vessel upon unlocking the second connector assembly.
3. A disconnectable spread mooring assembly for a vessel floating at a water surface, the vessel having a bow and a stern, the disconnectable spread mooring assembly comprising:
a forward chain table assembly releasably connected to the vessel at the bow;
an aft chain table assembly releasably connected to the vessel at the stern, wherein each of the forward and aft chain table assemblies comprises one or more buoyancy compartments and the forward and aft chain table assemblies are arranged and designed to float at or near the water surface when disconnected from the vessel;
a plurality of bow mooring legs having first ends attached to the forward chain table assembly and having second ends capable of being anchored at spaced locations on a seafloor;
a plurality of stern mooring legs having first ends attached to the aft chain table assembly and having second ends capable of being anchored at spaced locations on the seafloor;
a first connector assembly connecting the forward chain table assembly to the vessel at the bow;
a second connector assembly connecting the aft chain table assembly to the vessel at the stern, wherein the first and second connector assemblies are arranged and designed to unlock and release the forward and aft chain table assemblies from the vessel;
a first tie-back hawser or chain, or combination of hawser and chain, connected to the forward chain table assembly;
a second tie-back hawser or chain, or combination of hawser and chain, connected to the aft chain table assembly; and
one or more fixed jacket structures fixed to the seafloor,
wherein the first and second tie-back hawsers or chains, or combinations of hawser and chain, are arranged and designed to connect to the one or more fixed jacket structures when the forward and aft chain table assemblies float at or near the water surface.
16. A disconnectable spread mooring and riser tower system for a vessel floating at a water surface, the vessel having a bow and a stern, the disconnectable spread mooring and riser tower system comprising:
a forward chain table assembly releasably connected to the vessel at the bow;
an aft chain table assembly releasably connected to the vessel at the stern;
a plurality of bow mooring legs having first ends attached to the forward chain table assembly and having second ends capable of being anchored at spaced locations on a seafloor;
a plurality of stern mooring legs having first ends attached to the aft chain table assembly and having second ends capable of being anchored at spaced locations on the seafloor;
a first connector assembly connecting the forward chain table assembly to the vessel at the bow;
a second connector assembly connecting the aft chain table assembly to the vessel at the stern, wherein the first and second connector assemblies are arranged and designed to unlock and release the forward and aft chain table assemblies from the vessel;
a first pull-in assembly on the vessel at the bow;
a second pull-in assembly on the vessel at the stern,
wherein the first pull-in assembly is arranged and designed to lower the forward chain table assembly and the first ends of the plurality of bow mooring legs from the vessel upon unlocking the first connector assembly,
the second pull-in assembly is arranged and designed to lower the aft chain table assembly and the first ends of the plurality of stern mooring legs from the vessel upon unlocking the second connector assembly;
a riser tower system fixed to the seafloor and located near the moored vessel; and
one or more flexible jumper hoses extending between the riser tower system and the vessel to transfer one or more of: fluids, air, power and control signals.
2. The disconnectable spread mooring assembly of
4. The disconnectable spread mooring assembly of
a first tie-back hawser or chain, or combination of hawser and chain, connected to the forward chain table assembly;
a second tie-back hawser or chain, or combination of hawser and chain, connected to the aft chain table assembly; and
one or more buoys secured to the seafloor,
wherein the first and second tie-back hawsers or chains, or combinations of hawser and chain, are arranged and designed to connect to the one or more buoys when the forward and aft chain table assemblies float at or near the water surface.
5. The disconnectable spread mooring assembly of
6. The disconnectable spread mooring assembly of
a first tie-back hawser or chain, or combination of hawser and chain, connected to the forward chain table assembly; and
a second tie-back hawser or chain, or combination of hawser and chain, connected to the aft chain table assembly,
wherein the first and second tie-back hawsers or chains, or combinations of hawser and chain, are arranged and designed to connect to one another and be submerged when the forward and aft chain table assemblies float submerged below the water surface at neutral buoyancy.
7. The disconnectable spread mooring assembly of
a tie-back chain or wire or combination of chain and wire, connected to the forward chain table assembly and the aft chain table assembly when the vessel is in the moored condition with the forward and aft chain table assemblies connected to the vessel,
wherein the tie-back chain or wire or combination of chain and wire is arranged and designed to secure the forward and aft chain table assemblies when disconnected from the vessel and floating submerged below the water surface at neutral buoyancy.
8. The disconnectable spread mooring assembly of
9. The disconnectable spread mooring assembly of
the second pull-in assembly is arranged and designed to lower the released aft chain table assembly and the first ends of the plurality of stern mooring legs to the seafloor.
10. The disconnectable spread mooring assembly of
11. The disconnectable spread mooring assembly of
a forward chain table support structure housing the first connector assembly at the bow of the vessel; and
an aft chain table support structure housing the second connector assembly at the stern of the vessel.
12. The disconnectable spread mooring assembly of
13. The disconnectable spread mooring assembly of
14. The disconnectable spread mooring assembly of
15. The disconnectable spread mooring assembly of
the second pull-in assembly comprises a winch assembly, hydraulic cylinders, a chain jack assembly, or a combination thereof at the stern of the vessel.
18. The method for disconnecting a floating vessel of
19. The method for disconnecting a floating vessel of
20. The method for disconnecting a floating vessel of
21. The method for disconnecting a floating vessel of
connecting a second end of each of the first and second tie-back hawsers or chains, or combinations of hawser and chain, to one another; and
allowing the forward and aft chain table assemblies to float submerged below the water surface at neutral buoyancy.
22. The method for disconnecting a floating vessel of
23. The disconnectable spread mooring assembly of
a first pull-in assembly on the vessel at the bow; and
a second pull-in assembly on the vessel at the stern,
wherein the first and second pull-in assemblies are arranged and designed to retrieve the forward and aft chain table assemblies, respectively, released from the vessel for reconnection to the first and second connector assemblies, respectively.
24. The disconnectable spread mooring assembly of
a forward chain table support structure housing the first connector assembly at the bow of the vessel; and
an aft chain table support structure housing the second connector assembly at the stern of the vessel.
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This application claims the benefit of U.S. Provisional Application Ser. No. 62/712,719 filed on Jul. 31, 2018, entitled “Disconnectable Spread Mooring and Riser Tower System and Method.” Applicants incorporate by reference herein Application Ser. No. 62/712,719 in its entirety.
The present invention relates generally to disconnectable mooring systems for floating vessels, and more particularly to disconnectable spread mooring systems and riser tower systems for vessels moored on location to load fluids, such as hydrocarbons, from subsea pipelines and risers.
This invention relates to disconnectable mooring systems to moor floating vessels to load or unload one or more products from the moored vessels. Typically, the floating vessels are tankers, and particularly floating storage offloading (“FSO”) vessels, and floating production, storage and offloading (“FPSO”) vessels.
Various types of mooring systems to secure a floating vessel on location in a body of water are known in the art. A representative disconnectable turret mooring system, illustrated in
The disconnectable turret mooring arrangement provides a fluid flow path between a subsea well, pipeline or component and the floating vessel when the vessel is moored to the geostationary buoy. A fluid transfer system (“FTS”) includes a flexible conductor or riser, as shown in
Typically, the floating vessel moors to the geostationary buoy by first recovering the submerged buoy upwards to the structural connector of the turret assembly using a retrieval line with a winch system. The structural connector is then locked into engagement with the connector hub which moors the floating vessel to the seafloor.
A representative disconnectable tower yoke mooring system with jumpers for a shallow water application is illustrated in
A representative spread mooring system, shown in
Hurricane or typhoon or cyclone waves can present significant risks and challenges to spread mooring systems, particularly in shallow water. Retrieval of the anchor legs requires substantial time and effort, in addition to substantial time and effort in placing the anchor legs when moving back on location after the inclement weather has passed.
It is desirable to have a mooring system that can be disconnected and reconnected efficiently. It is further desirable to have a mooring system that can be disconnectable in high sea states.
An embodiment of the present invention relates generally to a disconnectable spread mooring system and a riser tower system to be implemented for abnormally high sea areas, such as hurricane/typhoon/cyclone wave areas, particularly in shallow water. The embodiments of the present invention comprise disconnectable mooring systems to moor and unmoor floating vessels in situ, usually tankers, and particularly FSO vessels and FPSO vessels. A riser tower positioned near the moored vessel allows one or more flexible jumper hoses and/or umbilicals to be utilized between the riser tower and the vessel with connectors to transfer fluids, air, power, control signals, etc.
Chain table assemblies, with or without buoyancy compartments, can be mounted at bow and stern areas of the vessel by a vertical mechanical connector either above the waterline, partially submerged or fully submerged in water with the spread mooring legs attached, or connected at an angle from vertical. The chain table assemblies may be disconnected from, and reconnected to, the bow and stern areas via the mechanical connector. After disconnection, the chain table assemblies will be lowered in the water either floating with the buoyancy compartments or sitting above the mudline with a mudmat/suction plate or legs. The chain table assemblies with mooring legs can be pulled from the water or from the seafloor and reconnected to the bow and stern connectors after the storm. In an alternate embodiment, floating chain table assemblies with buoyancy compartments will be secured either by connecting tie-back hawsers together or connecting the hawsers to one or more fixed structures, or even rest on the seafloor with the buoyancy compartments flooded after disconnection.
Before mooring chain table assembly disconnection and reconnection operations, all the jumpers and cables between the riser tower and the moored vessel need be disconnected and stored either on the vessel or on the riser tower.
One or more products, particularly liquid petroleum oil and gas products, water, air, electricity, control signals, etc., can be transferred between the moored vessels and shuttle tankers by means of tandem or alongside loading/offloading or catenary anchor leg mooring (“CALM”)/single anchor leg mooring (“SALM”) buoy loading/offloading, or between the moored vessels and other facilities through the riser tower systems.
The invention is better understood by reading the detailed description of embodiments which follows and by examining the accompanying drawings, in which:
The preferred embodiments of the present invention will now be discussed with reference to the drawings. The preferred embodiments are a disconnectable spread mooring and riser tower system for a floating vessel V for abnormally high sea areas, such as hurricane/typhoon/cyclone wave applications, particularly in shallow water.
The disconnectable spread mooring system 110 comprises a plurality of mooring or anchor legs 12 extending from the bow of the vessel V to the seafloor F and a plurality of mooring or anchor legs 14 extending from the stern of the vessel V to the seafloor F. The anchor legs 12, 14 may include lengths of chain or wire or combinations of chain and wire, and include an anchor.
Referring to
Referring to
In the embodiment shown in
As shown in
With reference to
A representative connector assembly 34 is shown latched or engaged in
The hydraulic connector assembly 34 may include a movable sleeve 60 disposed about the housing 80. The movable sleeve 60 can have an inwardly directed flange 60f at one end and a band 60b at an opposite end. The band 60b can be adjacent to and configured to contact the one or more fingers 66. Linear movement of the sleeve 60 in a first direction (downward) allows the fingers 66 to rotate or pivot to a closed or locked position as shown in
One or more actuators 68 may be used to move the sleeve 60 about the outer surface of the housing 80, allowing the fingers 66 to rotate or pivot open and close. The one or more actuators 68 can be positioned between and connected to the inwardly directed flange 60f of the movable sleeve 60 and the outwardly facing shoulder 84 of the stationary housing 80. The actuator(s) 68 can be hydraulic or pneumatic and are preferably hydraulic cylinders. When more than one actuator 68 is used, the actuators 68 are controlled by a singular control to provide simultaneous operation and movement of the sleeve 60. The actuators 68 can be actuated from the vessel V by accumulators and telemetry-controlled valves. Accumulators and telemetry-controlled valves are well known to those skilled in the art.
Still referring to
Preferably, each chain table support structure 30, 32 includes a pull-in or winch assembly 38 (
In the preferred embodiment, an alignment pin assembly 44 is provided to maintain the proper alignment of the disconnectable chain table assemblies 20, 22 with the vessel V, as shown in
As stated above, the present invention provides a mooring system that can be disconnected efficiently and in high sea states. This is accomplished, in part, in certain embodiments of the present invention by disconnecting and lowering the forward and aft disconnectable chain table assemblies 20 and 22 to the seafloor F.
A retrieval rope 50 has one end connected to the forward disconnectable chain table assembly 20, and a second end connected to the winch line 40 of the winch assembly 38. Preferably, a tag line with a surface buoy 52 is also attached to the retrieval line 50. The connector assembly 34 is activated to its unlocked position and the load of the forward disconnectable chain table assembly 20 with the connected bow mooring legs 12 is transferred to the winch assembly 38. The winch assembly 38 then lowers the disconnected chain table assembly 20 until bow mooring legs 12 and the disconnectable chain table assembly 20 come to rest on the seafloor F. The winch line 40 is disconnected from the retrieval rope 50 and returned to the vessel. The mudmat 42 at the bottom of the disconnectable chain table assembly 20 rests on the seafloor F and creates a suction with the seafloor F providing stability. Preferably, the chain stoppers 26 and connector hub 36 are located above the mudline as shown in
The sequence of steps involved in moving the moored vessel V off location from the spread mooring and riser tower system arrangement 100, as shown in
Preferably, the aft disconnectable chain table assembly 22 with stern mooring legs 14 is disconnected first during the mooring leg disconnection. Upon lowering and resting the aft disconnectable chain table assembly 22 on the seafloor F as described above with respect to
The present invention also provides for efficiently reconnecting the disconnectable spread mooring system 110 upon the vessel V returning to the location.
The surface buoy and tag line 52 are used to locate the forward disconnectable chain table assembly 20 located on the seafloor F and the winch line 40 is connected to the retrieval rope 50, which is connected to the forward disconnectable chain table assembly 20. Preferably, the tag line with the surface buoy 52 is retrieved to the vessel V. The winch assembly 38 draws in the winch line 40 and raises the disconnectable chain table assembly 20 along with the connected ends of the bow anchor legs 12 off the seafloor F. With the connector assembly 34 in its unlocked position, the alignment pin 44 stabs into the receiver and the connector hub 36 is received in the connector assembly 34. The connector assembly 34 is then locked to retain the connector hub 36 and the forward disconnectable chain table assembly 20 is reconnected to the vessel V.
After reconnecting the forward and aft disconnectable chain table assemblies 20 and 22 to the vessel V, the flexible jumper hoses and/or umbilicals 132 between the riser tower 120 and the vessel V can be connected to resume normal operations.
Referring to
The sequence of steps involved in moving the vessel V off location in this alternative configuration is very similar to the sequence described above with respect to
It is to be understood that reconnecting the disconnectable spread mooring system 110 upon the vessel V returning to the location may be accomplished as described above with respect to
One purpose for the angled connection of
In a mooring and tower arrangement as shown in
Alternatively, and in addition to other mooring and tower arrangements, the buoyant disconnected chain table assemblies 20″, 22″ may be connected to a buoy secured to the seabed with a mooring line by conventional offshore operations.
In
Referring to
The reconnection procedures follow the reverse of the disconnection procedures. The tag line with surface buoy/light 52″ is retrieved and the hawsers 28 are disconnected from one another. Referring to
A guided subsea connector 48, preferably with a turndown shaft or a wheel, can also be utilized to connect the tie-back hawsers 28 together in the water or on the seabed by a winch line of a winch assembly on the vessel as shown in
Alternatively, mudmats 140 with a large stabbing 142 on each are preinstalled on the seabed F near bow and stern areas. Referring to
It is to be understood that offloading and loading operations can be operated by means of bow and stern tandem arrangement or alongside arrangement or CALM/SALM buoy system, or between the moored vessels and other facilities through the riser tower systems.
While the invention has been described in detail above with reference to specific embodiments, it will be understood that modifications and alterations in the embodiments disclosed may be made by those practiced in the art without departing from the spirit and scope of the invention. All such modifications and alterations are intended to be covered. In addition, all publications cited herein are indicative of the level of skill in the art and are hereby incorporated by reference in their entirety as if each had been individually incorporated by reference and fully set forth.
Liu, Yonghui, Lindblade, Stephen P.
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Dec 10 2020 | LIU, YONGHUI | SOFEC, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 058017 | /0404 | |
Dec 10 2020 | LINDBLADE, STEPHEN P | SOFEC, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 058017 | /0404 |
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